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1 – 5 of 5A. Pauchard, B. Furrer, Z. Randjelovic, A. Rochas, D. Manic and R.S. Popovic
A fully integrated sensor microsystem for blue/ultraviolet radiation detection is presented. The photosensitive part combines a blue/UV selective stripe‐shaped photodiode with a…
Abstract
A fully integrated sensor microsystem for blue/ultraviolet radiation detection is presented. The photosensitive part combines a blue/UV selective stripe‐shaped photodiode with a small compensation infrared photodiode. A transimpedance amplifier with 1 GΩ feedback resistor is integrated on the same silicon chip. The main features of the op amp are a low offset (<0.5mV) and fail‐safe operation. This sensor has a maximal responsivity of 150 mV/nW at λ = 420 nm, corresponding to 43 percent quantum efficiency. A ratio of the responsivities at 420 nm and 1 μm as large as 560 is achieved. The system has a noise equivalent power of 5 10‐13 W. The 2.2 mm2 microsystem is realized in a standard CMOS 0.5 μm process.
In this chapter, the linkages between environment- and disaster-related issues are reviewed in the context of urban planning in developing countries. The focus is on urban areas…
Abstract
In this chapter, the linkages between environment- and disaster-related issues are reviewed in the context of urban planning in developing countries. The focus is on urban areas, with the aim to understand processes in urban systems that are distinct from those in rural villages/towns. Over the past few decades, more people have started living in cities in comparison to rural areas. This shift has led to an increase in the global urban population, which became larger than the rural population in 2007 (United Nations Habitat [UNHABITAT], 2008). The majority of this urban growth has taken place in cities located in developing countries, predominantly in the Asian and African region (UNHABITAT, 2008). Furthermore, it is estimated that up to 95 percent of the total global population increase will be in cities (UNDESA, 2010). Mainly cities in low- and mid-income countries are experiencing trends of urbanization (UNHABITAT, 2008). Projections suggest that 8 out of total 29 new megacities by 2025 will be in developing countries (UNDESA, 2010); therefore, the vast amount of growth will take place in many small and medium cities (UNDESA, 2010; United Nations International Strategy for Disaster Reduction [UNISDR], 2009).
Ying Wei, Xueyuan Cai, Jinzhi Ran and Jianhong Yang
The purpose of this paper is to investigate the dependence of dark current on threading dislocations (TDs) in relaxed Ge layer for Ge/Si heterojunction photodetectors.
Abstract
Purpose
The purpose of this paper is to investigate the dependence of dark current on threading dislocations (TDs) in relaxed Ge layer for Ge/Si heterojunction photodetectors.
Design/methodology/approach
The analysis of the effects of TDs is based on SRH generation and recombination mechanism used in two‐dimensional drift‐diffusion numerical simulation.
Findings
It is found that the TDs in Ge layer acting as the recombination centers lead to large dark current densities of devices, and the recombination rate is affected by the impurity out‐diffusion from Si substrate. Besides, the TDs, being the acceptor‐like defects simultaneously, form band barrier at Si/Ge interface with lightly doped Si substrates, thus limiting the minority carrier transport and resulting in low dark current densities.
Originality/value
The simulation results are excellently consistent with the experimental data and indicate that the reduction of threading dislocation densities (TDDs), especially in Ge buffer layer, dramatically decreases dark currents densities of Ge/Si photodetectors. The investigation can be applied to imbue devices with desired characteristics.
Details
Keywords
Ravita Kharb, Charu Shri and Neha Saini
The objective is to develop an empirical model estimating the relationship and interaction amongst the factors affecting and enhancing green finance (GF) in developing economies…
Abstract
Purpose
The objective is to develop an empirical model estimating the relationship and interaction amongst the factors affecting and enhancing green finance (GF) in developing economies like India.
Design/methodology/approach
Around nine growth-accelerating enablers of green financing were found through literature and unstructured interviews and analysed using the total interpretive structural modelling (TISM) method. The hierarchical link between each factor is established using TISM, and further to evaluate the driver-dependent relationship the Matriced’ Impacts Croises Appliquee Aaun Classement (MICMAC) approach is utilised.
Findings
The findings demonstrate an interrelationship between growth-accelerating factors, where the political environment and information and communication technology (ICT), have minimal dependency but a strong driving force. Political environment and ICT are found as strategic-level factors lying at the bottom of the model driving towards the dependent variables. The government should focus on enacting effective policies such as the green credit guarantee scheme and carbon credit and establishing a regulatory framework to enhance green financing.
Research limitations/implications
This study examines the literature to generalise the findings and focus on the primary motivators for developing green financing. To increase green financial activity, practitioners must concentrate on aspects with significant driving forces. Furthermore, it makes organisations more profitable, efficient and competitive and promotes long-term growth.
Originality/value
The study is the first in the literature which identifies the growth-accelerating factors of green financing using the TISM and MICMAC-based hierarchical models.
Details